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ta79005,06,07,08,09,10, 12,15,18,20,24sb 2008-04-22 1 toshiba bipolar linear integrat ed circuit silicon monolithic ta79005sb, ta79006sb, ta79007sb, ta79008sb, ta79009sb, TA79010SB, ta79012sb, ta79015sb, ta7901 8sb, ta79020sb, ta79024sb output current of 1a, three-termi nal negative voltage regulators ? 5 v, ? 6 v, ? 7 v, ? 8 v, ? 9 v, ? 10 v, ? 12 v, ? 15 v, ? 18 v, ? 20 v, ? 24 v features z suitable for cmos, ttl, and the and the power supply of other digital ics z internal overheating protection z internal overcurrent protection z maximum output current of 1 a z package in the plastic case tpl (p d = 1.8 w) pin assignment gnd 1 3 in out marking side 2 marking the product(s) in this document (?product?) cont ain functions intended to protect the product from temporary small overloads such as minor short-te rm overcurrent or overheating. the protective functions do not necessarily protec t product under all circumstances. when incorporating product into your system, please design the system (1) to avoid such overloads upon the pr oduct, and (2) to shut down or otherwise relieve the product of such over load conditions immediately upon occurrence. for details, please refer to the notes appearing below in this document and other documents referenced in this document. sip3-p-2.50a weight: 1.5 g (typ.) a line indicates lead(pb)-free finish. lot no. part no. (or abbreviation code) 79*** sb
ta79005,06,07,08,09,10, 12,15,18,20,24sb 2008-04-22 2 equivalent circuit absolute maximum ratings (ta = 25c) characteristics symbol rating unit ta79005sb ta79006sb ta79007sb ta79008sb ta79009sb TA79010SB ta79012sb ta79015sb ? 35 ta79018sb ta79020sb input voltage ta79024sb v in ? 40 v output current i out 1 a power dissipation (ta = 25c) p d 1.8 w operating temperature t opr ? 30 to 85 c storage temperature t stg ? 55 to 150 c junction temperature t j 150 c thermal resistance r th (j-a) 69.4 c/w note: using continuously under heavy loads (e.g. the application of high temperature/current/voltage and the significant change in temperature, etc.) may cause this product to decrease in the reliability significantly even if the operating conditions (i.e. operat ing temperature/current/voltage, etc. ) are within the absolute maximum ratings and the operating ranges. please design the appropriate reliability upon reviewing the toshiba semiconductor reliability handbook (?handling precautions?/?derating concept and methods?) and individual reliability data (i.e. reliability test report and estimated failure rate, etc).
ta79005,06,07,08,09,10, 12,15,18,20,24sb 2008-04-22 3 ta79005sb electrical characteristics (unless otherwise specified, v in = ? 10 v, i out = 500 ma, 0c t j 125c, c in = 0.33 f, c out = 0.1 f) characteristics symbol test circuit test condition min typ. max unit output voltage v out 1 t j = 25c ? 5.2 ? 5.0 ? 4.8 v ? 12 v v in ? 8 v D 7 50 line regulation regline 1 t j = 25c ? 25 v v in ? 7 v D 35 100 mv 5 ma i out 1.5 a D 11 100 load regulation regload 1 t j = 25c 250 ma i out 750 ma D 4 50 mv output voltage v out 1 t j = 25c ? 20 v v in ? 7 v, 5 ma i out 1.0 a ? 5.25 D ? 4.75 v quiescent current i b 1 t j = 25c D 4.3 8.0 ma line 1 ? 25 v v in ? 7 v D D 1.3 quiescent current change load i b 1 t j = 25c 5 ma i out 1.0 a D D 0.5 ma output noise voltage v no 2 ta = 25c, i out = 20 ma, 10 hz f 100 khz D 40 D v rms ripple rejection r.r. 3 f = 120 hz, i out = 20 ma, t j = 25c 63 70 D db short circuit current limit i sc 1 t j = 25c D 1.9 D a dropout voltage v d 1 t j = 25c, i out = 1.0 a D 2.0 D v average temperature coefficient of output voltage t cvo 1 i out = 5.0 ma D 0.6 D mv/c ta79006sb electrical characteristics (unless otherwise specified, v in = ? 11 v, i out = 500 ma, 0c t j 125c, c in = 0.33 f, c out = 0.1 f) characteristics symbol test circuit test condition min typ. max unit output voltage v out 1 t j = 25c ? 6.25 ? 6.0 ? 5.75 v ? 13 v v in ? 9 v D 9 60 line regulation regline 1 t j = 25c ? 25 v v in ? 8 v D 43 120 mv 5 ma i out 1.5 a D 13 120 load regulation regload 1 t j = 25c 250 ma i out 750 ma D 5 60 mv output voltage v out 1 t j = 25c ? 21 v v in ? 8 v, 5 ma i out 1.0 a ? 6.3 D ? 5.7 v quiescent current i b 1 t j = 25c D 4.3 8.0 ma line 1 ? 25 v v in ? 8 v D D 1.3 quiescent current change load i b 1 t j = 25c 5 ma i out 1.0 a D D 0.5 ma output noise voltage v no 2 ta = 25c, i out = 20 ma, 10 hz f 100 khz D 45 D v rms ripple rejection r.r. 3 f = 120 hz, i out = 20 ma, t j = 25c 61 68 D db short circuit current limit i sc 1 t j = 25c D 1.9 D a dropout voltage v d 1 t j = 25c, i out = 1.0 a D 2.0 D v average temperature coefficient of output voltage t cvo 1 i out = 5.0 ma D 0.7 D mv/c
ta79005,06,07,08,09,10, 12,15,18,20,24sb 2008-04-22 4 ta79007sb electrical characteristics (unless otherwise specified, v in = ? 12 v, i out = 500 ma, 0c t j 125c, c in = 0.33 f, c out = 0.1 f) characteristics symbol test circuit test condition min typ. max unit output voltage v out 1 t j = 25c ? 7.28 ? 7.0 ? 6.72 v ? 15 v v in ? 10 v D 10 70 line regulation regline 1 t j = 25c ? 25 v v in ? 9 v D 45 140 mv 5 ma i out 1.5 a D 20 140 load regulation regload 1 t j = 25c 250 ma i out 750 ma D 7 70 mv output voltage v out 1 t j = 25c ? 22 v v in ? 9 v, 5 ma i out 1.0 a ? 7.35 D ? 6.65 v quiescent current i b 1 t j = 25c D 4.3 8.0 ma line 1 ? 25 v v in ? 9 v D D 1.0 quiescent current change load i b 1 t j = 25c 5 ma i out 1.0 a D D 0.5 ma output noise voltage v no 2 ta = 25c, i out = 20 ma, 10 hz f 100 khz D 49 D v rms ripple rejection r.r. 3 f = 120 hz, i out = 20 ma, t j = 25c 60 67 D db short circuit current limit i sc 1 t j = 25c D 1.9 D a dropout voltage v d 1 t j = 25c, i out = 1.0 a D 2.0 D v average temperature coefficient of output voltage t cvo 1 i out = 5.0 ma D 0.9 D mv/c ta79008sb electrical characteristics (unless otherwise specified, v in = ? 14 v, i out = 500 ma, 0c t j 125c, c in = 0.33 f, c out = 0.1 f) characteristics symbol test circuit test condition min typ. max unit output voltage v out 1 t j = 25c ? 8.3 ? 8.0 ? 7.7 v ? 17 v v in ? 11 v D 11 80 line regulation regline 1 t j = 25c ? 25 v v in ? 10.5 v D 47 160 mv 5 ma i out 1.5 a D 26 160 load regulation regload 1 t j = 25c 250 ma i out 750 ma D 9 80 mv output voltage v out 1 t j = 25c ? 23 v v in ? 10.5 v, 5 ma i out 1.0 a ? 8.4 D ? 7.6 v quiescent current i b 1 t j = 25c D 4.3 8.0 ma line 1 ? 25 v v in ? 10.5 v D D 1.0 quiescent current change load i b 1 t j = 25c 5 ma i out 1.0 a D D 0.5 ma output noise voltage v no 2 ta = 25c, i out = 20 ma, 10 hz f 100 khz D 52 D v rms ripple rejection r.r. 3 f = 120 hz, i out = 20 ma, t j = 25c 59 66 D db short circuit current limit i sc 1 t j = 25c D 1.9 D a dropout voltage v d 1 t j = 25c, i out = 1.0 a D 2.0 D v average temperature coefficient of output voltage t cvo 1 i out = 5.0 ma D 1.0 D mv/c
ta79005,06,07,08,09,10, 12,15,18,20,24sb 2008-04-22 5 ta79009sb electrical characteristics (unless otherwise specified, v in = ? 15 v, i out = 500 ma, 0c t j 125c, c in = 0.33 f, c out = 0.1 f) characteristics symbol test circuit test condition min typ. max unit output voltage v out 1 t j = 25c ? 9.3 ? 9.0 ? 8.7 v ? 19 v v in ? 13 v D 11 82 line regulation regline 1 t j = 25c ? 26 v v in ? 11.5 v D 48 162 mv 5 ma i out 1.5 a D 33 162 load regulation regload 1 t j = 25c 250 ma i out 750 ma D 11 82 mv output voltage v out 1 t j = 25c ? 24 v v in ? 11.5 v, 5 ma i out 1.0 a ? 9.4 D ? 8.6 v quiescent current i b 1 t j = 25c D 4.3 8.0 ma line 1 ? 26.5 v v in ? 13 v D D 1.0 quiescent current change load i b 1 t j = 25c 5 ma i out 1.0 a D D 0.5 ma output noise voltage v no 2 ta = 25c, i out = 20 ma, 10 hz f 100 khz D 60 D v rms ripple rejection r.r. 3 f = 120 hz, i out = 20 ma, t j = 25c 57 64 D db short circuit current limit i sc 1 t j = 25c D 1.9 D a dropout voltage v d 1 t j = 25c, i out = 1.0 a D 2.0 D v average temperature coefficient of output voltage t cvo 1 i out = 5.0 ma D 1.1 D mv/c TA79010SB electrical characteristics (unless otherwise specified, v in = ? 16 v, i out = 500 ma, 0c t j 125c, c in = 0.33 f, c out = 0.1 f) characteristics symbol test circuit test condition min typ. max unit output voltage v out 1 t j = 25c ? 10.4 ? 10.0 ? 9.6 v ? 20 v v in ? 14 v D 12 90 line regulation regline 1 t j = 25c ? 27 v v in ? 12.5 v D 50 180 mv 5 ma i out 1.5 a D 40 180 load regulation regload 1 t j = 25c 250 ma i out 750 ma D 13 90 mv output voltage v out 1 t j = 25c ? 25 v v in ? 12.5 v, 5 ma i out 1.0 a ? 10.5 D ? 9.5 v quiescent current i b 1 t j = 25c D 4.4 8.0 ma line 1 ? 27.5 v v in ? 14 v D D 1.0 quiescent current change load i b 1 t j = 25c 5 ma i out 1.0 a D D 0.5 ma output noise voltage v no 2 ta = 25c, i out = 20 ma, 10 hz f 100 khz D 65 D v rms ripple rejection r.r. 3 f = 120 hz, i out = 20 ma, t j = 25c 57 63 D db short circuit current limit i sc 1 t j = 25c D 1.9 D a dropout voltage v d 1 t j = 25c, i out = 1.0 a D 2.0 D v average temperature coefficient of output voltage t cvo 1 i out = 5.0 ma D 1.3 D mv/c
ta79005,06,07,08,09,10, 12,15,18,20,24sb 2008-04-22 6 ta79012sb electrical characteristics (unless otherwise specified, v in = ? 19 v, i out = 500 ma, 0c t j 125c, c in = 0.33 f, c out = 0.1 f) characteristics symbol test circuit test condition min typ. max unit output voltage v out 1 t j = 25c ? 12.5 ? 12.0 ? 11.5 v ? 22 v v in ? 16 v D 13 120 line regulation regline 1 t j = 25c ? 30 v v in ? 14.5 v D 55 240 mv 5 ma i out 1.5 a D 46 240 load regulation regload 1 t j = 25c 250 ma i out 750 ma D 17 120 mv output voltage v out 1 t j = 25c ? 27 v v in ? 14.5 v, 5 ma i out 1.0 a ? 12.6 D ? 11.4 v quiescent current i b 1 t j = 25c D 4.4 8.0 ma line 1 ? 30 v v in ? 14.5 v D D 1.0 quiescent current change load i b 1 t j = 25c 5 ma i out 1.0 a D D 0.5 ma output noise voltage v no 2 ta = 25c, i out = 20 ma, 10 hz f 100 khz D 75 D v rms ripple rejection r.r. 3 f = 120 hz, i out = 20 ma, t j = 25c 54 61 D db short circuit current limit i sc 1 t j = 25c D 1.9 D a dropout voltage v d 1 t j = 25c, i out = 1.0 a D 2.0 D v average temperature coefficient of output voltage t cvo 1 i out = 5.0 ma D 1.6 D mv/c ta79015sb electrical characteristics (unless otherwise specified, v in = ? 23 v, i out = 500 ma, 0c t j 125c, c in = 0.33 f, c out = 0.1 f) characteristics symbol test circuit test condition min typ. max unit output voltage v out 1 t j = 25c ? 15.6 ? 15.0 ? 14.4 v ? 26 v v in ? 20 v D 14 150 line regulation regline 1 t j = 25c ? 30 v v in ? 17.5 v D 57 300 mv 5 ma i out 1.5 a D 68 300 load regulation regload 1 t j = 25c 250 ma i out 750 ma D 25 150 mv output voltage v out 1 t j = 25c ? 30 v v in ? 17.5 v, 5 ma i out 1.0 a ? 15.75 D ? 14.25 v quiescent current i b 1 t j = 25c D 4.4 8.0 ma line 1 ? 30 v v in ? 17.5 v D D 1.0 quiescent current change load i b 1 t j = 25c 5 ma i out 1.0 a D D 0.5 ma output noise voltage v no 2 ta = 25c, i out = 20 ma, 10 hz f 100 khz D 90 D v rms ripple rejection r.r. 3 f = 120 hz, i out = 20 ma, t j = 25c 53 60 D db short circuit current limit i sc 1 t j = 25c D 1.9 D a dropout voltage v d 1 t j = 25c, i out = 1.0 a D 2.0 D v average temperature coefficient of output voltage t cvo 1 i out = 5.0 ma D 2.0 D mv/c
ta79005,06,07,08,09,10, 12,15,18,20,24sb 2008-04-22 7 ta79018sb electrical characteristics (unless otherwise specified, v in = ? 27 v, i out = 500 ma, 0c t j 125c, c in = 0.33 f, c out = 0.1 f) characteristics symbol test circuit test condition min typ. max unit output voltage v out 1 t j = 25c ? 18.7 ? 18.0 ? 17.3 v ? 30 v v in ? 24 v D 25 180 line regulation regline 1 t j = 25c ? 33 v v in ? 21 v D 80 360 mv 5 ma i out 1.5 a D 110 360 load regulation regload 1 t j = 25c 250 ma i out 750 ma D 55 180 mv output voltage v out 1 t j = 25c ? 33 v v in ? 21 v, 5 ma i out 1.0 a ? 18.85 D ? 17.15 v quiescent current i b 1 t j = 25c D 4.5 8.0 ma line 1 ? 33 v v in ? 21 v D D 1.0 quiescent current change load i b 1 t j = 25c 5 ma i out 1.0 a D D 0.5 ma output noise voltage v no 2 ta = 25c, i out = 20 ma, 10 hz f 100 khz D 110 D v rms ripple rejection r.r. 3 f = 120 hz, i out = 20 ma, t j = 25c 52 59 D db short circuit current limit i sc 1 t j = 25c D 1.9 D a dropout voltage v d 1 t j = 25c, i out = 1.0 a D 2.0 D v average temperature coefficient of output voltage t cvo 1 i out = 5.0 ma D 2.5 D mv/c ta79020sb electrical characteristics (unless otherwise specified, v in = ? 30 v, i out = 500 ma, 0c t j 125c, c in = 0.33 f, c out = 0.1 f) characteristics symbol test circuit test condition min typ. max unit output voltage v out 1 t j = 25c ? 20.8 ? 20.0 ? 19.2 v ? 32 v v in ? 26 v D 28 180 line regulation regline 1 t j = 25c ? 35 v v in ? 24 v D 104 360 mv 5 ma i out 1.5 a D 130 360 load regulation regload 1 t j = 25c 250 ma i out 750 ma D 70 180 mv output voltage v out 1 t j = 25c ? 35 v v in ? 24 v, 5 ma i out 1.0 a ? 21.0 D ? 19.0 v quiescent current i b 1 t j = 25c D 4.6 8.0 ma line 1 ? 36.5 v v in ? 25 v D D 1.0 quiescent current change load i b 1 t j = 25c 5 ma i out 1.0 a D D 0.5 ma output noise voltage v no 2 ta = 25c, i out = 20 ma, 10 hz f 100 khz D 140 D v rms ripple rejection r.r. 3 f = 120 hz, i out = 20 ma, t j = 25c 50 57 D db short circuit current limit i sc 1 t j = 25c D 1.9 D a dropout voltage v d 1 t j = 25c, i out = 1.0 a D 2.0 D v average temperature coefficient of output voltage t cvo 1 i out = 5.0 ma D 3.0 D mv/c
ta79005,06,07,08,09,10, 12,15,18,20,24sb 2008-04-22 8 ta79024sb electrical characteristics (unless otherwise specified, v in = ? 33 v, i out = 500 ma, 0c t j 125c, c in = 0.33 f, c out = 0.1 f) characteristics symbol test circuit test condition min typ. max unit output voltage v out 1 t j = 25c ? 25.0 ? 24.0 ? 23.0 v ? 36 v v in ? 30 v D 31 240 line regulation regline 1 t j = 25c ? 38 v v in ? 27 v D 118 480 mv 5 ma i out 1.5 a D 150 480 load regulation regload 1 t j = 25c 250 ma i out 750 ma D 85 240 mv output voltage v out 1 t j = 25c ? 38 v v in ? 27 v, 5 ma i out 1.0 a ? 25.2 D ? 22.8 v quiescent current i b 1 t j = 25c D 4.6 8.0 ma line 1 ? 38 v v in ? 27 v D D 1.0 quiescent current change load i b 1 t j = 25c 5 ma i out 1.0 a D D 0.5 ma output noise voltage v no 2 ta = 25c, i out = 20 ma, 10 hz f 100 khz D 170 D v rms ripple rejection r.r. 3 f = 120 hz, i out = 20 ma, t j = 25c 49 56 D db short circuit current limit i sc 1 t j = 25c D 1.9 D a dropout voltage v d 1 t j = 25c, i out = 1.0 a D 2.0 D v average temperature coefficient of output voltage t cvo 1 i out = 5.0 ma D 3.5 D mv/c
ta79005,06,07,08,09,10, 12,15,18,20,24sb 2008-04-22 9 test circuit 1 v out , regline, regload, i b , i b , v d , t cvo test circuit 2 v no test circuit 3 r.r.
ta79005,06,07,08,09,10, 12,15,18,20,24sb 2008-04-22 10 usage precautions ? low voltage do not apply voltage to the product that is lower th an the minimum operating vo ltage, or the product?s protective functions will not op erate properly and the product may be permanently damaged. ? overcurrent protection the overcurrent protection circuits in the product are designed to temporarily protect product from minor overcurrent of brief duration. when the overcurrent protective func tion in the product activates, immediately cease application of overcurrent to product. improper usage of product, such as application of current to product exceedin g the absolute maximum ratings, could ca use the overcurrent protection circuit not to operate properly an d/or damage product permanently even be fore the protection circuit starts to operate. ? overheating protection the thermal shutdown circuits in th e product are designed to tempor arily protect product from minor overheating of brief duration. when the overheating protective func tion in the product activates, immediately correct the overheating situation. improper usage of product, such as the application of heat to product exceeding the absolute maximum ratings, co uld cause the overheating protection circuit not to operate properly and/or damage prod uct permanently even before the prot ection circuit starts to operate.
ta79005,06,07,08,09,10, 12,15,18,20,24sb 2008-04-22 11
ta79005,06,07,08,09,10, 12,15,18,20,24sb 2008-04-22 12
ta79005,06,07,08,09,10, 12,15,18,20,24sb 2008-04-22 13 package dimensions
ta79005,06,07,08,09,10, 12,15,18,20,24sb 2008-04-22 14 restrictions on product use 20070701-en general ? the information contained herein is subject to change without notice. ? toshiba is continually working to improve the quality and reliability of its products. nevertheless, semiconductor devices in general can malfunction or fail due to their inherent electrical sensitivity a nd vulnerability to physical stress. it is the responsibility of the buyer, when utilizing toshiba produc ts, to comply with the standards of safety in making a safe design for the entire system, and to avoid situations in which a malfunction or failure of such toshiba products could cause loss of human life, bodily injury or damage to property. in developing your designs, please ensure that toshiba products are used within specified operating ranges as set forth in the most recent toshib a products specifications. also, please keep in mind the precautions and conditions set forth in the ?handling guide for semiconduct or devices,? or ?toshiba semiconductor reliability handbook? etc. ? the toshiba products listed in this document are in tended for usage in general electronics applications (computer, personal equipment, office equipment, measuri ng equipment, industrial robotics, domestic appliances, etc.).these toshiba products are neither intended nor warranted for usage in equipment that requires extraordinarily high quality and/or reliability or a malfuncti on or failure of which may cause loss of human life or bodily injury (?unintended usage?). unintended usage incl ude atomic energy control instruments, airplane or spaceship instruments, transportation instruments, traffic signal instruments, combustion control instruments, medical instruments, all types of safety devices, et c.. unintended usage of toshiba products listed in his document shall be made at the customer?s own risk. ? the products described in this document shall not be used or embedded to any downstream products of which manufacture, use and/or sale are prohibited under any applicable laws and regulations. ? the information contained herein is presented only as a guide for the applications of our products. no responsibility is assumed by toshiba for any infringement s of patents or other rights of the third parties which may result from its use. no license is granted by implic ation or otherwise under any patents or other rights of toshiba or the third parties. ? please contact your sales representative for product- by-product details in this document regarding rohs compatibility. please use these products in this document in compliance with all applicable laws and regulations that regulate the inclusion or use of controlled substances. toshiba assumes no liability for damage or losses occurring as a result of noncompliance with applicable laws and regulations.

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